Signal transmission and tag power consumption measurement circuit for an inductive reader
First Claim
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1. A signal transmission and tag power consumption measurement circuit for an inductive tag reader wherein the tag reader is operative with a passive tag having an data means for providing a data signal and a receiving coil coupled to the data means for inducing a power supply voltage, the tag reader including a differential driver means coupled to a power source for producing first and second complementary drive signals, the tag power consumption measurement circuit comprising:
- coil means having first and second sides;
paired capacitors for differentially coupling the first and second complementary drive signals across the first and second sides, respectively, of the coil means, for enabling the coil means to produce an electromagnetic field to the receiving coil of the passive tag and to sense power consumption representative of the data signal of the passive tag;
rectifier means directly coupled to the first and second sides of the coil means in parallel with said paired capacitors for producing a rectified encoded signal representing the data signal, the rectified encoded signal having a direct current (DC) element and an alternating current (AC) element superimposed on the DC element; and
signal conversion means comprising filter means, coupled to the rectified encoded signal of the rectifier means, for providing an output signal representative of the data signal of the passive tag.
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Abstract
A field coil signal transmission and tag power consumption measurement circuit for use in an inductive tag reader system. The circuit is coupled to an oscillator which provides a drive signal to a differential driver. The driver transforms the clock signal into first and second complementary drive signals. The drive signals are coupled to a field coil through a plurality of capacitors for inductively producing an output power signal. The capacitors are differentially coupled to the coil, so that each input of the coil is coupled to one of the clock signals through a separate capacitor. A bridge rectifier is coupled to the field coil opposite the capacitors for producing an output comprising a direct current (DC) element and an alternating current (AC) element superimposed on the DC element. A resistance-capacitance (R-C) filter, coupled to the bridge rectifier, provides a filtered rectifier output signal. The output signal can be decoded downstream of the R-C filter using several different decoding schemes known in the art.
86 Citations
21 Claims
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1. A signal transmission and tag power consumption measurement circuit for an inductive tag reader wherein the tag reader is operative with a passive tag having an data means for providing a data signal and a receiving coil coupled to the data means for inducing a power supply voltage, the tag reader including a differential driver means coupled to a power source for producing first and second complementary drive signals, the tag power consumption measurement circuit comprising:
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coil means having first and second sides; paired capacitors for differentially coupling the first and second complementary drive signals across the first and second sides, respectively, of the coil means, for enabling the coil means to produce an electromagnetic field to the receiving coil of the passive tag and to sense power consumption representative of the data signal of the passive tag; rectifier means directly coupled to the first and second sides of the coil means in parallel with said paired capacitors for producing a rectified encoded signal representing the data signal, the rectified encoded signal having a direct current (DC) element and an alternating current (AC) element superimposed on the DC element; and signal conversion means comprising filter means, coupled to the rectified encoded signal of the rectifier means, for providing an output signal representative of the data signal of the passive tag. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
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9. Apparatus for measuring power consumption in an inductively coupled tag reader system, wherein the system includes a passive tag having data means for providing a data signal and a receiving coil coupled to the data means, and tag reader means having differential driver means coupled to a power source for producing first and second complementary drive signals, the apparatus comprising:
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field coil means for receiving the first and second complementary drive signals through paired capacitors and for producing an electromagnetic field to induce a voltage in the field coil proportional to the power consumption of the passive tag, wherein the field coil means is differentially coupled to the first and second complementary drive signals through a respective one of the paired capacitors; rectifier means directly coupled to the field coil means for producing a rectified output signal indicative of the passive tag power consumption comprising a DC element and an AC element superimposed on the DC element; and filter means coupled to the rectifier means for filtering the rectified output signal and for providing a filtered output signal. - View Dependent Claims (10, 11, 12, 13, 14, 15)
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16. A method for transmitting energy and measuring power consumption in an inductively coupled tag reader system, comprising the steps of:
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(a) generating an electromagnetic field from a balanced capacitor-coupled oscillator using a field coil, wherein the field coil means comprises a single coil element having first and second coil inputs, with each coil input being differentially coupled through a capacitor to one of a pair of drive signals; (b) coupling the electromagnetic field to a passive tag to reactively generate an induced power signal in the field coil; and (c) directly measuring the power consumption of the passive tag, the power consumption representative of data stored in the passive tag, by (c1) full wave rectifying an induced power signal created in the field coil, the rectified power signal representative of the power consumption of the passive tag; (c2) producing an encoded signal from the rectified power signal, the encoded signal comprising a DC element and an AC element superimposed on the DC element; (c3) filtering the encoded signal, thereby converting the encoded signal to a filtered encoded signal; (c4) removing the DC element form the filtered encoded signal; and (c5) converting the AC element to an output signal representing the data stored in the passive tag. - View Dependent Claims (17, 18)
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19. An inductively coupled tag reader system for reading data stored in a passive tag, the reader system comprising:
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balanced differential coil driver means for producing first and second complementary drive signals; balanced resonant coil means for receiving the first and second complementary drive signals and routing the first and second drive signals through a coil thereof, the balanced resonant coil means coupling the first and second complementary drive signals through respective first and second capacitors; and differential detection and filtering means directly coupled to the balanced resonant coil means, for directly measuring differential variations in the current in the coil resulting from inductive coupling with the passive tag, the variations representative of the data stored in the tag.
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20. An inductively coupled tag reader system for reading data transmitted by a passive tag, comprising:
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differential driver means attached to a signal source for producing first and second complementary drive signals; field coil means differentially coupled through capacitor means to the first and second complementary drive signals for generating an electromagnetic field, the electromagnetic field inductively coupled to the passive tag for inducing a voltage in the passive tag and the field coil means, and the induced voltage proportional to power consumption of the passive tag; passive rectifier means directly attache to the field coil means opposite the first and second complementary drive signals for directly measuring and converting the induced voltage to an intermediate signal comprising a DC element and an AC element superimposed on the DC element, the AC element proportional to peak-to-peak variation in power consumption of the passive tag, and the peak-to-peak variations in power consumption representative of the transmitted data; and filter means attached to the passive rectifier means for converting the intermediate signal to a filtered output signal representative of the data transmitted by the passive tag.
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21. In an inductively coupled tag reader system, a method for reading data transmitted by a passive tag comprising the steps of:
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generating an electromagnetic field using a differential driver means capacitively coupled to a balanced resonant coil detection means using a pair of equal value capacitors to form a balanced resonant circuit; inductively coupling the balanced resonant coil detection means to the passive tag using the electromagnetic field; inducing a voltage and current in the balanced resonant coil detection means and the passive tag, the induced voltage and current proportional to power consumption of the passive tag;
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anddirectly measuring differential variations in the induced voltage and current using a differential power detection and filtering means directly coupled to the balanced resonant coil detection means, the variations representative of the data stored in the passive tag.
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Specification
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Current AssigneeAvid Identification Systems (Avid Technology Incorporated)
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Original AssigneeAvid Marketing Incorporated
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InventorsBeigel, Michael L.
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Primary Examiner(s)Ng, Jin F.
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Assistant Examiner(s)Oda, Christine K.
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Application NumberUS07/708,028Time in Patent Office914 DaysField of Search340/572, 340/825.54, 455/41US Class Current340/572.1CPC Class CodesG06K 7/0008 General problems related to...G06K 7/10336 the antenna being of the ne...G08B 13/2417 having a radio frequency id...G08B 13/2462 Asset location systems comb...G08B 13/2477 Antenna or antenna activato...
